2006, Volume 110A - The Journal of Physical Chemistry A (ACS

May 10, 2007 - In eq 2, χn(ri) are the usual damping functions, with R0 taken as the average of the ... C76 = 0.31833196E-01, C77 = −0.69782464E-02...
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J. Phys. Chem. A, Vol. 111, No. 22, 2007 4869

ADDITIONS AND CORRECTIONS 2006, Volume 110A A. J. C. Varandas and S. P. J. Rodrigues: New Double Many-Body Expansion Potential Energy Surface for GroundState HCN from a Multiproperty Fit to Accurate ab Initio Energies and Rovibrational Calculations

Page 485. In eq 2, χn(ri) are the usual damping functions, with R0 taken as the average of the AB and AC diatomic valuesfor each A-BC channel. In addition to n ) 7 terms, the C84 ones have also been neglected.

TABLE 5: Numerical Values of the Extended Hartree-Fock Energy (Eq 13) in Atomic Units 1 R1,ref ) 2.179 2 R1,ref ) 2.209 3 R1,ref ) 2.2439 C1 ) 0.10610383E+02

C4 ) -0.84619326E+00 C7 ) 0.15199860E+01 C10 ) 0.17923807E+00 C13 ) -0.10680413E+01 C16 ) -0.35589832E-01 C19 ) -0.12637979E+00 C22 ) -0.25118989E+01 C25 ) 0.11462454E+00 C28 ) 0.40219081E+00 C31 ) -0.59897087E+00 C34 ) -0.91645637E-01 C37 ) 0.11713043E+00 C40 ) -0.41369282E+00 C43 ) 0.16735091E+00 C46 ) -0.28994934E-02 C49 ) -0.86521615E-02 C52 ) -0.30043971E+00 C55 ) 0.24562120E+00 C58 ) 0.15149154E+00 C61 ) 0.63927148E-01 C64 ) 0.44466241E+00 C67 ) 0.90363327E-01 C70 ) -0.87238395E+00 C73 ) 0.15882123E+00 C76 ) 0.31833196E-01 C79 ) 0.12953787E+01 C82 ) -0.26764667E+00 C85 ) 0.76563091E-01 C88 ) 0.38994608E+00 C91 ) 0.16570251E+00 C94 ) -0.44480162E-01 C97 ) -0.14683392E+00 C100 ) -0.48321405E+00 C103 ) -0.22605742E+00 C106 ) 0.49843875E-01 C109 ) 0.29618814E-01 C112 ) 0.21473814E-01 C115 ) -0.85554180E+01 C118 ) 0.59072664E-01 C121 ) 0.44232389E+00 C124 ) -0.66800079E+01 C127 ) 0.19612037E+00 C130 ) 0.85452377E-01 C133 ) -0.88943653E-02 C136 ) 0.14242070E+01 C139 ) 0.13736614E+01 C142 ) -0.19595221E+00 C145 ) -0.21390063E+00 C148 ) -0.25046792E+00 C151 ) -0.11923902E+01 C154 ) -0.20340238E+01 C157 ) -0.78841100E+00 C160 ) 0.56923700E+00 C163 ) 0.27699812E+00 C166 ) 0.11101788E-01

γRi ) 1.0 (i ) 1, 2, 3; R ) 1, 2, 3) 1 R2,ref ) 2.013 2 R2,ref ) 4.087 2 R2,ref ) 2.2365 C2 ) -0.19340384E+01

C5 ) 0.63942964E-01 C8 ) 0.33462808E+00 C11 ) -0.10580572E-01 C14 ) 0.13085298E+01 C17 ) -0.17994167E-02 C20 ) -0.87964970E-01 C23 ) 0.24163953E+00 C26 ) 0.56345921E-01 C29 ) -0.65139622E+00 C32 ) 0.48146049E+00 C35 ) 0.52397000E+00 C38 ) -0.60895252E+00 C41 ) 0.51298070E+00 C44 ) 0.31931820E+00 C47 ) -0.37904051E+00 C50 ) -0.34143449E+00 C53 ) 0.23392596E-01 C56 ) 0.17996557E-01 C59 ) -0.19003976E+01 C62 ) -0.36013834E-01 C65 ) 0.99987876E+00 C68 ) -0.28952234E+01 C71 ) -0.68638072E-01 C74 ) 0.48747910E+00 C77 ) -0.69782464E-02 C80 ) 0.16726755E+01 C83 ) 0.15652166E+00 C86 ) 0.92258457E-01 C89 ) 0.51934641E+00 C92 ) 0.54893325E-01 C95 ) -0.18625756E+00 C98 ) -0.70366109E-01 C101 ) 0.16116635E+00 C104 ) -0.15924577E+00 C107 ) -0.17585547E-01 C110 ) -0.28029353E-01 C113 ) -0.19794019E+02 C116 ) -0.18957444E+01 C119 ) 0.89270055E+00 C122 ) -0.41911880E+00 C125 ) 0.96961018E-01 C128 ) 0.15463175E-01 C131 ) -0.70210567E-01 C134 ) 0.13303124E+01 C137 ) 0.13979380E+01 C140 ) 0.31961762E-01 C143 ) -0.88366935E+00 C146 ) -0.62564293E+00 C149 ) -0.43312630E+01 C152 ) 0.42006153E+00 C155 ) -0.38184706E+00 C158 ) 0.34216901E+00 C161 ) 0.51196399E+00 C164 ) 0.55072932E+00 C167 ) -0.26070196E+00

1 R3,ref ) 4.192 2 R3,ref ) 1.878 2 R3,ref ) 2.6252 C3 ) 0.45079700E+01 C6 ) -0.11095907E-01 C9 ) 0.54814834E+00 C12 ) 0.30540079E+01 C15 ) -0.71036643E+00 C18 ) 0.13956473E+00 C21 ) 0.19498599E-01 C24 ) -0.10251614E+01 C27 ) -0.12090187E+01 C30 ) 0.16207674E+00 C33 ) -0.57764857E+00 C36 ) -0.13553368E+00 C39 ) 0.20460885E-01 C42 ) -0.29124304E+00 C45 ) -0.19230240E+00 C48 ) 0.11845177E+00 C51 ) -0.25233214E+00 C54 ) -0.13045230E+00 C57 ) -0.61128899E+01 C60 ) 0.99316782E-01 C63 ) 0.11856847E+01 C66 ) 0.23429188E+00 C69 ) 0.30323044E-02 C72 ) 0.50256232E+00 C75 ) -0.19696705E+00 C78 ) 0.50285409E+01 C81 ) 0.92969131E-01 C84 ) 0.30100732E+00 C87 ) 0.20583422E+01 C90 ) 0.24338964E+00 C93 ) -0.94748868E+00 C96 ) -0.30683006E-02 C99 ) -0.18663426E+00 C102 ) -0.26353165E+00 C105 ) -0.22569460E+00 C108 ) -0.14272548E-01 C111 ) 0.55923590E-01 C114 ) -0.50902338E+01 C117 ) -0.19882871E+00 C120 ) -0.10170253E+01 C123 ) -0.78000529E-01 C126 ) -0.19985627E+01 C129 ) -0.56418645E+00 C132 ) -0.35224747E+00 C135 ) 0.48852797E+01 C138 ) 0.21762543E+00 C141 ) 0.11604787E+01 C144 ) 0.14435189E+01 C147 ) 0.53400304E+00 C150 ) 0.70645975E+00 C153 ) -0.37793442E+00 C156 ) -0.19185785E+00 C159 ) 0.74795225E+00 C162 ) 0.16941512E+00 C165 ) -0.19439041E+00 C168 ) 0.91524140E-01

4870 J. Phys. Chem. A, Vol. 111, No. 22, 2007

Additions and Corrections

TABLE 7: Stationary Points of Dmbe II Potential Energy Surfacea HCN HNC CNH† TS2 TS3 TS4

R1/a0

R2/a0

R3/a0

E/Eh

∆E

ω1

ω2

ω3

2.179 (2.179)c 2.209 (2.209)f 2.244 (2.258)i 5.161 5.794 6.023

2.013 (2.013)c 4.087 (4.087)f 2.237 (2.241)i 3.129 3.710 2.719

4.192 (4.192)c 1.878 (1.878)f 2.625 (2.634)i 2.032 2.084 3.304

-0.4992

313.3b (313.07 ( 0.25)d 15.19 (14.8 ( 1.0)g 47.38 (48.4 ( 1.0)g

3446.71 (3443.1)e 3812.80 (3813.4, 3816.6)h 2924.61

727.98 (727.0)e 462.82 (460.5, 468.2)h 1201.01i

2131.52 (2127.4)e 2057.37 (2059.1, 2059.9)h 2035.80

-0.4750 -0.4237 -0.1208 -0.1189 -0.0677

3559.54 2700.69 2089.23i

611.83i 296.60 644.68

299.32 345.06i 664.75

a Harmonic frequencies are in cm-1 and ∆E in kcal mol-1. Experimental and other theoretical values are presented in parentheses. b Atomization energy. c Experimental geometry (see ref 70). d Atomization energy best estimate (see ref 49). e Experimental harmonic frequencies (see ref 42). f Experimental geometry from ref 71. g Theoretical estimate (see ref 80). h Experimental harmonic frequencies (see refs 47 and 48). i Theoretical estimate (see ref 2).

In eq 7, the upper limit of the second summation should be 2: 3

CL,A-BC (R) ) DM(1 + n

∑ i)1

2

airi) exp(-

AC biri) + CAB ∑ n + Cn i)1

(7) Equation 12 should read:

θa ) - arctan{2 sin θ(8C5 cos θ + C4R)/ {[256C52 sin2 θ cos2 θ + 2C4C5R cos θ(36 - 25 sin2 θ) + 361C52 sin4 θ + 9C42R2 + 144C52 - (5C42R2 + 456C52) sin2 θ]1/2 - 3C4R cos θ ( C5(19 sin2 θ - 12)}} (12) The analytic dependence of the NH quadrupole in the internuclear distance, as well as the carbon atom quadrupole, QC ) 1.430 ea02, has been taken from ref 1. Some data misassignment has been detected in the Fortran code, calling for an update of the HCN DMBE potential

function. The new frequencies are within 1 cm-1 of the reported ones, with an identical rmsd (new Tables 1-4 are available as Supporting Information). The rmsd of the ab initio data in Table 6 is within the accuracy originally reported. All major topographical features of the potential function are identical. The new coefficients are shown in the new Table 5. Although keeping identical stationary points, these show slightly different attributes (new Table 7). Acknowledgment. We thank Professor Alan Isaacson (Miami University) for carefully testing the potential and calling the authors’ attention to some misprints. Supporting Information Available: Corrected versions of Tables 1-4 from the original Article. This material is available free of charge via the Internet at http://pubs.acs.org. References and Notes (1) Rodrigues, S. P. J.; Varandas, A. J. C. Phys. Chem. Chem. Phys. 2000, 2, 435.

10.1021/jp073029z Published on Web 05/10/2007